Automatic reclosing circuit interrupter



June 17, 1952 J, M WALLACE 2,601,188

AUTOMATIC RECLOSING CIRCUIT INTERRUPTER Filed Aug. 28, 1947 2 SHEETS--SHEET 2 Z560' @6m/015% @df/ Rmi Patented June 17, 1952 UNITED STATES PATENT OFFICE AUTOMATICA RECLOSINGCIRCUITJ INTERRUPTER' JamesM.- Wallace, East MoK'ees'por-t,V Pa., assignor toi Westinghouse` Electric: Corporation, East Pittsburgh, Pa., a corporaticn'of Pennsylvania'- Application August ZS, 1947, Serial'No. 771,123

(Cl. 200e-89) 10"C!aiins.

This inventionV relates generally to automatic reolosing ciectric circuit-interrupting devices, and more particularly to such devices having differingv circuit opening timeson closely suc-r cessive circuitinterrupting operations.

Circuit'interruptingVV devices of this type are constructed to operate inV response to continuing overloads on the circuit lto automatically operate through al cycle ofoperations comprising a predetermined number ofcircuit `opening and closing operations at the `end of which the' interrupter remains openuntil manually' reclosed. Many interrupters of this type-have-provisions such that, in any-such" cy'c'le'of operations, the rst' one or two circuit opening operations occur relatively rapidly', and'later circuit opening operations areA delayed-L One difficulty which has been encountered with such interrupters occurs when the int'errupter is manually reclosed following an automatic cycle ofioperation, bey

cause such :manual reclosureusually occurs only after a relatively longv open circuit period and the circuit has then: lost its diversity factor. In other Words, all motors and similar devices on the circuit Whichrequirehigher currents for startin'g'than for'runnin'g and inf most casesdo not run continuously, such as motorsv for refrigerators; all these will be' ready to start when' the" interrupter isI manually: A reclosed; This means that the'initial-current` demand-is so high as to makeiit-impossible to `reene'rgizethe line because1 with an instantaneous first automatic opening, theY interrupter will-'immediately reopen the circuit in response totheimomentary overload 'encountereddue' to the simultaneous starting current demand of all devices con- 1 nected inthe circuit.

One object of this vinvention, therefore; is'to provide anV automatic freclosingcircuit interrupter which is automaticallyoperablethrougha cycle of a predetermined number of closely successive circuit` openingr andv closing operations,. the rst one or more circuit opening operations of which are fast-andflater ones being relatively slow, withthe interrupter main-- tained 'open at the end. ofV suoliV cycleof operation, with novel means-causing a circuitA interrupting operation whichv occurs immediately following Vm'ariiial reclos'uie'offthe iterrupter toI any cycle of closellyfslic'ces'sive-circuitJ interrupt-j` f means causing-'said dashpot means 'to delay-*aidistj circuit interrupt-'- ing operationaly with 'nov 2'" ing operation which occurs soon a recl'osing off thein'terrupter following a completey autvomaticcycle ofVA operation.

Anotherobject of thisinvention is to provide av circuitinterrupteror" the type described hav ing. Counting. means actuated on each operation of the interrupter to interpose means for delay ingllater'. circuit'interruptingoperations in ani7 cycle off'a predetermined? number of closely successive' operations, and where said counting meansautomatically resets after the lapse of a predeterminedf time, `with novel means for preventing-'resetting' oi." said 'counting means when the intel-runter is automatically held at open circuit position' at'the endi of such a cycle of operation'.

Another object oi? thisinvention is to provide foracircuit interrupter of; the type described, having." fluid` operated: counting' means adapted toI alter operation.1 of the interrupter after one or more-closely-successive operations thereof and biased toV slowly' reset, with novel means preventing` resetting ofthev counting means when theinterrupter is at anl open circuit position.

.Stillanother-object of1 this invention' is to provide inf a circuit` interrupter of' the type described having iluid' actuated counting means for counting a predetermined number of closely succeeding operationsy oftheinterrupter and then preventing subsequent reclosing, and/or for oountingalesser numberof operations to thereafter delay. circuit opening operations of the interrupter,y withY novel means for preventing` resettingY off. such-countingfmeans at least during the time thev interrupter is. maintained at an openci'rcuit position.

These and: other objects of this invention will become more apparent upon consideration of the following description of preferred embodiments thereof;v when talienin` connection with the attached drawings, in which:

lligurel is a longitudinal sectional view of a reclosingv circuit interrupter embodying this invention, withl the partswithin the interrupter casing beingl shown in elevation;

Figa 2`-is-ank enlarged partial longitudinal section-vieWofthe interruptenshown in Fig. l, with certainof'the parts being omitted;

Fig'` 3 `is ar longitudinal sectional view oi the upper portion of areclosing'interrupter likethat shown infFig. 1, butlillustrating a modification;

Fig.' ifisr an enlarged longitudinal cross-sectional! View of an intermediate portion ci the 'interrupterf shown. in Fig. 3, with the plane or the section passing through the counting device; and:

Fig.l fis' a partial?l sectional'V 'viewv of the interrupter shown in Figs. 3 and 4, taken substantially at right angles to the section of Fig. 4.

While, for purposes of illustration, this invention is shown on the drawings as being embodied in one particular form of automatic reclosing circuit interrupter, it is to be distinctly understood that the invention may be applied to other types of automatic reclosing circuit interrupters as well. The particular interrupter disclosed herein is in many respects similar to that disclosed and claimed in the oopending application of H. L. Rawlins and J. M. Wallace, Serial No. 502,876, filed July 2, 1945, on Circuit Interrupters, and assigned to the same assignee of this invention. This interrupter is adapted to be housed in a substantially cylindrical casing 2 of insulating material, such for example as porcelain or the like, with the casing adapted to be supported at an intermediate portion as by a supporting bracket 4. As viewed in Fig. 1, the lower end of casing 2 is closed by a closure disk 5 cemented or otherwise secured against a shoulder provided in the lower end of casing 2, at a distance above the lower end of the casing, so as to provide a skirt I for concealing the lower terminal conneotion. Bottom closure disk 5 for casing 2 is provided with a central aperture for receiving a terminal bolt 6 having an enlarged head 8 adapted to be seated against the closure disk on a compressible gasket I0, of cork or similar compressible sealing material. Terminal bolt 6 is provided with a nut I2 for securing it in place, and for securing a terminal fixture I4 thereto.

Adjacent the upper end of casing 2 there is provided a channeled supporting ring I6 secured to the casing in any desired manner, such for example as by cast metal I8 interlocking with the channeled ring and with peripheral grooves provided about the upper end of casing 2. A cover casting for the upper end of casing 2 is adapted to be secured on the upper end of casing 2 by any desired means, such as by bolts or the like (not shown) cooperating with the cover casting 20 and supporting ring I6. Cover casting 20 is provided with a hollow chamber 22 opening to the interior of casing 2, and with an integral hood 24, for a purpose to be described.

Within chamber 22 of the cover casting there is provided a supporting shaft 26 extending transversely thereof with its ends mounted in opposite sides of the chamber, for pivotally supporting an inverted U-shaped spring support 28. Support 28 is provided with apertures in the leg portions thereof for pivotal mounting on shaft 25, and one leg is pivotally connected with one end of a rod 3D, with the other end of the rod being slidable in the aperture of a lug 32 provided integral with cover casting 20. A spring supporting flange or disk 34 is secured on rod 30, to form the reaction point for one end of a coiled compression lockout spring 36, the other end of which reacts against a washer seated on lug 32. It will be observed that spring 36 acts to bias support 28 in a counterclockwise direction about shaft 26, but such movement of support 28 is normally prevented by toggle means comprising a toggle lever 38 pivotally connected to one leg of support E8 at one end, and pivoted at its other end to another toggle lever 40 which, in turn, is piv otally mounted on cover casting 20, as at 42. Toggle lever 48 is provided with an integral handle extension 44 having a hookeye 46 in the outer end thereof and adapted, in its normal position shown in Fig. '1, to engage a stop bolt 48 provided beneath hood 24 which may be secured in an adjusted position by means of a lock nut 58. It will be noted that in the normal position or the parts illustrated in Fig. 1, toggle levers 38 and 40 are held at an overcenter position by spring 36, with handle 44 deilning this overcenter position by its engagement with stop bolt 48. Moreover, in this position oi' the parts, handle 44 is located substantially entirely beneath hood 24.

A contact actuating lever 52 is also pivotally mounted on shaft 28 within cover chamber 22 and has its inner end 54 extended so as to be engaged by one end of a spring 55 coiled about shait 26, with the other end of this spring reacting against the bight portion of support 28. Inasmuch as support 28 is normally held against movement by the toggle levers described above, it is apparent that spring 55 acts to normally bias actuating lever 52 in a clockwise direction about shaft 26. Actuating lever 52 is connected by links 55 of insulating material, such for example as ber or the like, to the upper end of a contact rod 58. The contact rod extends downwardly through casing 2 and has adjacent its lower end at the point where it enters an interrupter chamber 62, a sleeve thereon which may be of any desired insulating material, such as iiber or a molded insulating material. The lower end of contact rod 58 is provided with a contact head 64 for engagement with a stationary contact 66 secured in the interrupter chamber. In general. the interrupter chamber 62 comprises a tubular member 63 of insulating material such as ber or the like, with a top cap 68 apertured to slidably receive the Contact rod and its sleeve 60, and a bottom cap 'I0 is provided to which stationary contact 66 is secured. Bottom cap 'I0 of the interrupter chamber is electrically connected with terminal bolt 6 by means of a coiled compression spring 12 of a resilient electrical conducting material, which reacts between the head 8 of terminal bolt I5, and bottom cap 'I0 of the interruptor chamber.

Contact rod 58 also passes downwardly through apertures provided in the legs of a generally U-shaped frame I4 which supports an annular solenoid coil 16. An apertured collar I5 is held against an interior shoulder provided about the aperture in the top leg of supporting frame 'I4 by a cylindrical dashpot sleeve TI, preferably of a molded insulating material, and this, in turn, is held in place by engagement of the lower end of sleeve 'I'I with the top plate 'I8 of a generally rectangular shaped supporting frame, which is secured to the lower leg of solenoid supporting frame 14 by means of bolts 80. Top supporting plate 'I8 may be integral with spaced side plates 82, and these, in turn, may be integral with top cap 68 of the interruptor chamber. Solenoid supporting frame 'I4 is thus secured to interrupter chamber 62, and these parts are all adapted to be supported from cover casting 20 by means of supports 84 connected between the top leg of frame I4 and the cover casting, so that all the parts may be inserted or removed from casing 2 as a unit with cover casting 20.

Contact rod 58 is provided with an actuating tube 86 thereon within solenoid coil 16, and the upper end of this tube has a hanged collar 88 adapted to be seated on top of collar I5 and to engage a shoulder 90 provided on the contact rod, for a purpose to be described. A substantially cylindrical core 92 is adapted to be slidably mounted between actuating sleeve 86 and dashpot sleeve II in a piston-like manner, and is normally maintained at theposition shown in Fig. 1 of the drawings by a light coil compression spring 96, which reacts between the closed lower end or" core 92 and collar 88 on actuating sleeve B6. The lower end of core 92 is provided with lateral vent openings 94, so that any uid trapped within the core is free to escape during movement of the core.

The circuit through the interruptor thus far described extends from a terminal fixture 93 secured by a bolt |90 to cover casting 2U, by way of a flexible conductor |02 to one terminal of solenoid coil 16, and then by a flexible conductor |64 to a supporting plate |06 secured on contact rod k5B. The circuit continues in the closed circuit position of the interrupter, to fixed contact S8, through spring 12 to terminal bolt 6 and terminal fixture I4. It will be observed that solenoid coil 16 being connected in series in the circuit through the interruptor will be responsive to overload currents above a predetermined value to exert sufficient force to attract solenoid core 82 upwardly. Upward movement of core 92 results first in compressing light coil spring 96 until the bottom of the core engages the lower end of actuating sleeve 86 which is then raised into engagement with shoulder 99 on contact rod 59 to separate contact head 64 from fixed contact 55. rhis causes an arc to form between the contacts and to cause further upper movement of contact rod 5&3 due to pressure built up within interrupter chamber d2. Upward movement of contact rod 58 stresses spring 55 so that when the arc is finally extinguished and solenoid coil 16 is deenergized, spring 55 is free to move contact rod 53 downwardly to reclose the circuit.

Opening and closing of the interruptor in the manner described above would continue indefinitely on continuing overloads, and to avoid this an integrating or counting means is pro- A vided, which is identical with that more particularly described in Wallace et al. Patent 2,442,477, issued June l, 1948, to the same assignee of this invention. Such an integrating or counting means comprises a tubular member |01 secured on the top leg of solenoid supporting frame 114, with a notched piston |99 therein adapted to be advanced each time the circuit opens by a generally U-shaped pawl III, guided for sliding and tilting movement on a guide rod I I5 also secured to the upper leg of frame 14. Pawl III is normally held at a position where a portion thereof overlies flanged collar 88 on actuating sleeve 86, by a coiled compression spring II3 mounted on guide rod H5. A check valve controlled inlet (not shown) is provided for the lower end of tubular member |91 so that when the interruptor operates to open the circuit and actuating sleeve 8S is moved upwardly, the flanged collar 88 tilts pawl I I into engagement with a notch of piston |09 and moves it upwardly a predetermined distance where it remains when the contacts reclose. There is some leakage between piston |09 and tubular member |91 so that if the fault clears upon a first circuit reclosing operation, the piston |09 will slowly sink back to its original position. However, if the fault has not cleared upon the first reclosure of the interruptor, it will immediately reopen and this time pawl III will engage a lower notch of piston |09 and raise it a further amount. If the fault is still present on the second reclosure of the interrupter, it will continue to open and close the circuit until piston |09 has been advanced an amount sufficient that the upper end thereof engages toggle lever 6. 38 and moves this toggleleverl upwardlyovercenter so as to permit lockout spring 36'to rotate support 28 clockwiseA and hold contact rod 58 at an open circuit position. Such anoperation will cause handle 44 to project beneath hood 24 to present a readily visible indication of the. lockout condition of the interruptor.

In order to provide a time delay for a circuit opening and closing operation of the interrupter, use is made of the operation of core 92 in `dashpot sleeve 11, and of the liquid displaced by movement of the core. For the purposey of delaying a circuit closing operation, contact rod 58 has a latch plate |68 pivotally mounted on supporting plate I of the rod, and latchV plate |08 has a relatively large opening for receiving the contact rod to permit pivotal movement thereof, itv being normally biased upwardly by a coiled compression spring I I9. Latch plate |08 is also provided adjacent its pivot point with an aperture for receiving a latch rod ||2 iixedly mounted between cap 68 of the interrupter chamber and support plate 19. The lower end of latch rod I|2 is reduced in section, and the aperture in the latch plate which receives rod I I2 is of a size such that upon movement of contact rod 58 to an open circuit position, latch plate |08 may pivot in a clockwise direction while compressing spring |I to relieve any tendency of the aperture therein to bind on latch rod I I2. However, uponA attempted reclosing movement of contact rod 58, latch plate |03 will bind on rod II2 due to the action of spring I I9, to thereby latch the contact rod in an open circuit position. This latch is adapted to be released by downward movement of solenoid core 92, when the lower end thereof engages the outer end of latch plate |38. However, downward movement of core 92 is relatively slow due to its dashpot action in cooperation with sleeves 11 and 39, so that reclosing movement of contact rod E8 will be correspondingly slow until the reduced section at the lower end of latch rod I I2 is reached, whereupon latch plate IIl8can no longer bind on latch rod |I2 and contact head 64 will rapidly move into final engagement with xed Contact 66.

The interrupter'may be provided with certain accessories, such as a support I I4 for a lightning arrester unit electrically connected between the cover casting and frame 14 by a conductor IIS, so that lightning surges will by-pass solenoid coil 1G and operation of the interruptor will be pre-- vented. A counter I i9 may also be provided 'sup-- ported beneath hood'ZfiI for actuating by a link |29 'connected with an actuating lever |22 which is pivoted on shaft 263. Lever |22 may be able with actuating lever 52 so as to register the number of operati-ons of the interru counter I Iii, which is visible from the exterior of the interruptor.

For the rpurpose of providing a time delay between the occurrence of an overload suiiicieut to attract core 92 upwardly andV cause a circuit interrupting operation, and the time the contacts are actually separated, collar 15 and the upper leg of supporting frame 14 are provided with a passage |25 leading from the upper end of the dashpot space between sleeves 11 and 83 to a tubular chamber |24. Passage |25 is provided at the end thereof within tubular chamber |24 with a check valve disk |28 adapted to be seated thereon to permit flow of iiuid solely in the direction into chamber I2`4. Preferably chamber I2!!` is formed by a cylindrical tube threaded into a threaded socket :provided on the upper leg of solenoid supporting frame '14. A piston |30 is freely slidably mounted in chamber |24 and the piston |30 carries a rod |32 which extends upwardly therefrom. An angled bracket |33 secured to cover casting 20 is provided with an opening for guiding piston rod |32 during movement of the piston |30 in chamber |24.

In operation, with casing 2 filled with an arcextinguishing fluid such as oil or the like, up to the level L, it will be observed that normally piston |30 will be seated on check valve |28 so that when solenoid core 92 is attracted .upwardly to interrupt the circuit, the liquid displaced thereby will be forced through passage |28 to unseat check valve |28 and move piston |30 upwardly a distance predetermined iby the amount of iiuid displaced. rhe distance piston |30 is moved upwardly may `cr may not bring it into engagement with a stop sleeve |34 secured in chamber |24, as by a setscrew |36 or the like, depending upon the position stop sleeve |34 occupies. Sleeve |3l may be adjusted so that a single circuit opening operation will cause piston |30 to be advanced substantially into engagement with stop sleeve i3d, or the adjustment may be such that two closely succeeding circuit opening operations are required before piston |30 is advanced to engage stop sleeve |34. In either case, the circuit opening operations which occur before piston |30 engages stop sleeve |34 will occur relatively rapidly due to the fact that the dashpot formed by sleeves i7 and 80 and core 92 is substantially freely vented through passage |20, there at least |being no substantial opposition to the flow of liquid through this passage. When core 92 moves downwardly during the circuit closing operation following a rst circuit opening operation, check valve |28 .will seat on the upper end of passage |26 to thus close the upper end of the dashpot space between sleeves 'l'l and 86 so that down- -1' ward movement of core 92 will be relatively slow since liquid must be drawn into the dashpot space past the relatively small yclearances between core Q2 and sleeves 'i1 and 8a3. If the interrupter remains closed after a first Circuit interrupting reclosing operation, piston |30 will gradually sink back to its normal lower position due to the force of gravity, but this movement will be quite slow due to the necessity of displacing liquid trapped below piston |30 past :the relatively small clearance between piston |30 and the wall of `chamber |24. However, if the fault or overload has not cleared upon reclosing of the contacts, the interrupter will again open and reclose substantially in the same manner as the first opera-tion pro- 6 vided piston |33 has not been moved into engagement with stop sleeve |34 on the first operation. As soon as piston |30 is moved into engagement with stop sleeve |24, be it on the rst or on the second circuit interrupting operation, if the overload condition still exists upon a subsequent closing operation, the interrupter will immediately reopen the circuit, but this time liquid cannot freely escape through the vent passage i25 from the dashpot space ybetween sleeves 'i' and 85 so that the upward movement of `core S2 will be much slower than on the preceding interrupting operation or operations, due to the necessity of forcing liquid trapped in the dashpot space past the relatively small clearance between core 92 and sleeves 'il and 86. Thus, with the structure disclosed, the interrupter will always operate on closely succeeding circuit interrupting operations to separate the contacts at a relatively rapid rate on the first one or two of such interrupting operations, and at a slower rate on succeeding operations. However, if the fault clears before automatic lockout of the breaker occurs, piston |30 will reset so that the next time a `continuing fault occurs, the same sequence of a iirst one or two fast interrupting operations followed by slower circuit interrupting operations will occur.

When the circuit interrupter shown in Figs. 1 and 2 has operated the predetermined number of times required to actuate toggle levers 38 and 40 upwardly over center to cause the breaker contacts to be held open, it is apparent that piston |30 could then reset so that when the interrupter is manually reclosed at a later time, it would then be prepared to go through the same sequence of fast and slow circuit interrupting operations when a fault again appeared on the line. However, to overcome the diiiiculty previously mentioned of such an interrupter being impossible to reclose manually due to the momentary overload current encountered in attempting to reenergize a circuit which has been out of service for an appreciable length of time, there is provided in accordance with this invention a bowed leaf spring |38 atv tached to the outer end of contact actuating lever 52 by means of suitable fastening means |40 and positioned so as to engage piston rod |32 when the latter has attained a position corresponding to the position of piston |30 where it engages stop sleeve |34, this being the position of the piston wherein it causes subsequent circuit opening operations to be delayed by the dashpot action of core 92 operating between sleeves 11 and 86. It is apparent, therefore, that spring 38 will engage piston rod |32 when the interrupter contacts are held at an open circuit position so as to exert a lateral force on the upper end of the guide rod causing the piston |30 to bind in chamber |24 and be held at the position shown in Fig. 2 of the drawings, so long as the contacts are held at the open circuit position illustrated. Now, when the interrupter is manually reclosed -by appropriate operation of handle extension 44 and a moment tary overload is encountered when the circuit is closed, the interiupter will not immediately reopen the contacts because circuit opening movement of core 92 is then delayed by the dashpot formed by sleeves l1 and 86.

A further advantage of the foregoing structure is that holding spring |38 may be arranged so as to engage piston rod |32 each time the contacts separate to open the circuit so that resetting of piston |30 cannot occur while the contacts are open, but can take place only after the circuit has been closed. This obviously permits more accurate control of the various circuit interrupting operations in regard to those particular operations which are to be delayed by the dashpot action described above.

In the modification of the invention shown in Figs. 3, 4 and 5, the interrupter is very similar to that described above in connection with Figs. l and 2 of the drawings, having many identical parts, and accordingly such parts have been designated with the same reference numerals and their description will not be repeated. The major difference between the two embodiments of this invention is that the device shown in Figs. l and 2 employs two separate counting devices at |01 and |24, one being for the purpose of counting a predetermined number of closely successive operations of the interrupter to cause the contacts to be held at their open circuit position at the conclusion of such predetermined number of operrender said time delay means effective to delay separation of said contacts by said overload-responsive means only on later operations in any such cycle of operations, said counting means being biased to automatically reset, means delaying resetting movement of said counting means for a predetermined tima and a part movable with said contacts and positioned to engage said counting means only when said contacts are substantially at their maintained separated position, whereby said counting means can reset only the aforesaid predetermined time after manual closing of the contacts so that an attempted circuit opening operation closely following manual closing will be delayed by said time delay means.

2. In a circuit interrupter, separable contacts, overload-responsive means for causing separation of said contacts, means for automatically closing said contacts after a circuit interrupting operation, means responsive only to a cycle of a predetermined number of closely successive operations of said interrupter contacts for automatically maintaining said contacts separated, manually operable means for closing said contacts after they have been maintained separated, normally ineffective fluid dashpot means associated with said contact separating means so as to be actuated upon separation of said contacts, fluid counting means communicating with said dashpot means to normally freely receive fluid dist placed by operation of said dashpot means so that the latter does not normally delay contact movement, said counting means having means which is responsive to receipt of a predetermined amount of fluid from said dashpot means to restrict said iiuid flow so that on subsequent closely succeeding operations contact separation will be delayed by said dashpot means, means biasing said counting means to reset, means delaying resetting movement of said counting means for a predetermined time, and a part movable with said contacts and positioned to engage said counting means when said contacts are maintained separated for preventing resetting of said counting means while said contacts are maintained separated, whereby said counting means can reset only the aforesaid predetermined time after manual closing of the contacts so that an attempted circuit opening operation closely following manual closing will be delayed by said time delay means.

3. In a circuit interrupter, separable contacts, overload-responsive means for causing separation oi said contacts, means for automatically closing said contacts after a circuit interrupting operation, means responsive only to a cycle of a predetermined number of closely successive operations of said interrupter contacts for automatically maintaining said contacts separated, manually operable means for closing said contacts after they have been maintained separated, normally ineffective time delay means, counting means, means movable with said contacts for actuating said counting means, for counting the operations of said interrupter in any such cycle of operations, means actuated by said counting means to automatically render said time delay means eiective to delay separation of said contacts by said overload-responsive means only on later operations in any such cycle of operations, said counting means being biased to automatically reset, means delaying resetting movement of said counting means for a predetermined time, and a separate part movable with said contacts and positioned when said contacts are separated to engage said counting means at least when said contacts are substantially at their maintained separated position for preventing resetting of said counting means, whereby said counting means can reset only a predetermined time after said contacts are closed so that an attempted circuit opening operation closely following manual closing will be delayed by said time delay means.

4. In a circuit interrupter, separable contacts, overload-responsive means for causing separation of said contacts, means for automatically closing said contacts after a circuit interrupting operation, fluid pumping means actuated on each operation of said interrupter, fluid actuated counting means communicating with said pumping means so as to be advanced a predetermined amount from a normal position in response to operation of said interrupter, said counting means being biased to slowly return to normal position, means responsive to advancement of said counting means a predetermined greater amount due to a plurality of closely successive operations of said interrupter to alter subsequent operation of the interrupter, and means movable with said contacts and positioned to mechanically engage said counting means at an open position of said contacts for preventing return of said counting means, whereby the latter can return toward normal position only when said contacts are not at said open position.

5. In a circuit interrupter, separable contacts, overload-responsive means for causing separation of said contacts, means for automatically closing said contacts after a circuit interrupting operation, fluid pumping means actuated on each operation of said interrupter, fluid actuated counting means communicating with said pump- 'mg means to be advanced a predetermined amount; from a normal position in response to operation of said interrupter, said counting means being biased to slowly return, means responsive to advancement of said counting means a predetermined greater amount due to a plurality of closely successive operations of said interrupter to alter subsequent operation of the interrupter, and means movable with said contacts and positioned to engage said counting means at approximately the extreme open position of said contacts for preventing return of said counting means, whereby the latter can return toward normal position only when said contacts are not at said open position.

6. In a circuit interrupter, separable contacts, overload-responsive means for causing separation of said contacts, means for automatically closing said contacts after a circuit interrupting operation, fluid dashpot means actuated upon separation of said contacts, fluid counting means communicating with said dashpot means to normally freely receive fluid displaced by operation of said dashpot means so that the latter does not normally delay contact movement, means operated by said counting means when the latter is supplied with a predetermined amount of fluid from said dashpot means to impede the free flow of fluid from said dashpot means to said counting means, so that on subsequent closely succeeding operations contact separation will be delayed by said dashpot means, means biasing said counting means to reset after a predetermined time, and means movable with said contacts and positioned to mechanically engage said counting means responsive to an open position of said contacts for preventing return of said counting means, whereby the latter can return toward nor- 13 mal position only when said contacts are not at said open position.

'7. In a circuit interrupter, separable contacts, overload-responsive means for causing separation of said contacts, means for automatically closing said contacts after a circuit interrupting operation, fluid dashpot means actuated upon separation of said contacts, fluid counting means communicating with said dashpot means to normally freely receive fluid displaced by operation of said dashpot means so that the latter does not normally delay contact movement, means operated by said counting means when the latter is supplied with a predetermined amount of fluid from said dashpot means to impede the free flow of iluid from said dashpot means to said counting means, so that 4on subsequent closely succeeding operations contact separation Will be delayed by said dashpot means, means biasing said counting means reset after a predetermined time, and means movable with said contacts and positioned to engage said counting means at approximately the extreme open position of said contacts.

8, In a circuit interrupter, separable contacts, overload responsive means for causing separation of said contacts, means for automatically closing said contacts after a circuit interrupting operation, fluid dashpot means actuated upon separation of said contacts, said dashpot means having a ventl through which fluid is normally free to pass, counting means actuated on each operation of said interrupter to be advanced a predetermined amount from a normal position, said counting means being biased to slowly return to its normal position, and means responsive to advancement of said counting means an amount greater than said predetermined amount by a plurality of closely successive operations of said interrupter to prevent free passage of fluid from said vent, and means movable with said contacts and positioned to engage said counting means approximately at the extreme open position of said contacts to prevent return movement of said counting means whereby the latter can return toward normal position only when said contacts are not at said open position.

9. In a circuit interrupter, separable contacts, overload-responsive means for causing separation of said contacts, means for automatically closing said contacts after a circuit interrupting operation, normally ineffective time delay means, means for counting closely successive circuit opening operations of said interrupter, means actuated by said counting means to automatically render said time delay means effective to delay separation of said contacts by said overload-responsive means only on later operations in any such cycle of operations, said counting means being biased to automatically reset, means delaying resetting movement of said counting means for a predetermined time, and separate means movable with said contacts and positioned to engage said counting means when said contacts are at approximately their extreme separated position to prevent resetting of the counting means when said contacts are at an open circuit position.

l0. An automatic reclosing circuit breaker comprising, separable contacts, means responsive to an overload on the circuit for automatically separating said contacts to open the circuit, means responsive to a circuit-opening operation for automatically closing said contacts, means responsive to a predetermined number of closely successive circuit-opening operations for maintaining said contacts separated, fluid pumping means actuated by said contact separating means for supplying fluid to a counter cylinder, a counting piston in said cylinder biased to a normal position from which it is advanced a predetermined amount by the iluid supplied by said pumping means on each circuit-opening operation oi the breaker, a movable mechanical stop positioned to be engaged by said piston when advanced a farther amount by a number oi' closely succeeding circuit-opening operations of said breaker whichis less than said predetermined number to prevent further movement of said piston, whereby the next closely succeeding circuit-opening operation will be delayed by the thus imposed resistance to iluid iiow from said pumping means to said counting cylinder and means for manually securing said movable stop at a selected position.

JAMES M. WALLACE. REFERENCES CITED The following references are of record in the le of this patent:

UNITED STATES PATENTS Number Name Date 508,652 Thomson Nov. 14, 1893 1,835,342 Schnell et al. Dec. 8, 1931 2,125,157 Gamel July 26, 1938 2,298,143 May Oct. 6, 1942 2,464,303 Gesellschap Mar. l5, 1949 2,468,498 Kyle Apr. 26, 1949 2,560,529 Van Ryan et al. July 10, 1951 

